Apparatus for winding tire beads



June 8, 1937.- F. J. SHOOK' 2,083,350

APP'ARATUS FOR WINDING TIRE BEADS Original Filed June 1', 1934 l4 Sheets-Sheet 1 a, WK

June 8,1937.

J., SHOOh I APPARATUS FOR WINDING TIRE BEADS Original FiledJu le 1, 1954 -14 Sheets-Sheet 2 (it meg June 8, 1937. I F. J. SHOOK 2 9 3 APPARATUS FOR WINDING T 'IRE BEADS Original Filed Jun l, 1934 14 Sheet s-Shet 4 (Ittor eg June 8, I F. J. SHOCK A v A 2,083,350

APPARATUS FOR WINDING TIRE BEADS original Filed June I, '1954 14 sheets-sheet. 5

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June 8; W37. F. J. SHOCK 9 1 2 APPARATUS FOR WIN ING TIRE BEADS V Original Fi1ec 1June l, l934 14 Sheets-Sheet e lhwentor Y B Flown/v .7; -5'lma r jlmeg E93? 7 F. J; SHdOK 7 9 APPARATUS FOR wmnme um: BEADS Original Filed June 1, 1934 14 Shets-Sheet 'r June-8, 1937 J -sH K Z,.Q'@3,35@

' APPARATUS FOR WINDING TIRE BEADS Original Filed June 1, 1934 14 [Sheets-Sheet 8 attorney June 8, 1937. F. J. sHo'oK I APPARATUS FOR WINDING TIRE BEADS Original Filed Jun 1, 1954 14 sne ts-sneet 9 Univ/11111 Zhweutor A2004 /10 MW M amme June 8, 1937. F. J.- SHOOK 3 APPARATUS FOR WINDING TIRE BEADS Original Filed June 1, 1934 14 Sheets-Sheet 1O (I ttomcg Jun s, 1931. F. J SHO'OK I 2,083,350

APPARATUS FOR WINDING TIRE ,BEAD-S Original Fil'ed June 1, 1954 14 Sheets-Sheet l1 TILT: ZZZ SJ June 8, 193? r 2Q 3 .0

APPARATUS "FOR wlumffi TIRE "BEADS ori nal Filed Jun 1, 1934 '14 Sheets-Sh eet 12 APPARATUS FOR WINDING TIRE BEADS Original Filed June 1, 1934 14 Sheets-Sheet 13 v w I 9 6 o I a W V //9 w /629 o //6' #9 o //3 E 5, 1/6 3nne nt0r 1 Ace)! $900k A attorney June 8, 1937. F. J. sHooK 2,033,359

APPARATUS FOR WINDING TIRE BEADS I Original Filed -June 1', 1934' 14 Sheets-Sheet 14 v a I 3/? 1 Zinnentor )QOAA/N 7157mm (It meg Patented June 1937 2,083,350 APPARATUS Fon wmnma ma amps Florain J. Shook, Akron, Ohio, assignor to National-Standard Company, Niles, Mich a corporation of Michigan Original application June 1, 1934, Serial No.

Divided and this application January 30, 1936, SerialNo. 61,540

36 Claims. .(Cl. 154-9).

This invention relates to apparatus for wind-- ing tire beads, and more especially it relates to apparatus for winding rubberized wire tape into a ring comprising a plurality of superposed convolutions, the finished structure constituting an inextensible bead core suitable for building into the lateral marginal portions of a pneumatic tire casing.

' The chief objects of the invention are to increase production of bead cores of the character mentioned; to provide apparatus that is fully automatic in operation; to provide apparatus of low maintenance cost due to absence of jolts and jars during operation; to provide apparatus capable -of making bead cores of various diameters and thickness with the minimum of alteration to the apparatus; to produce bead cores of the character mentioned wherein the respective ends of the wire tape accurately overlap each other;

to provide for the production of loosely pressed or tightly compacted bead core structures; and to provide for the ejecting of the bead cores from the apparatus in determinate angular position to facilitate receiving of the bead cores by apparatus for performing subsequent operations thereon. Other objects will be manifest as the specification proceeds.

This application is a division of my copend-- ing application for Apparatus for making tire beads, Serial No. 728,557, filed June 1,1934.

Of the accompanying drawings, V

Figure 1 is a front elevation of the improved bead winding apparatus, in its preferred form, and the work therein, in the initial stage of operation for winding a bead core of three convolutions;

Figure 2 is a section onthe line 2-'- 2 of Figv ure 1, showing avvariable speed drive device;

Figure 3 is a fragmentary portion of the mech anism shown in Figure 12, showing how a completely wound bead core is removed from the form on which it is built;

Figure 4 is a v front elevational detail, on a larger scale, of the mechanism at the right-hand end of Figure 1';

Figure 5 is a fragmentary, section on the line 55 of Figure 1;-

Figure 6 is a section, on a line 6-6 of Figure 4;

Fi u e 7 is a sectior on the line 'l-l of Fig- I w t .d g v Figure 8 is an enlarged detail elevation of a portion of the mechanism shown in Figure 4,

showing the bead tape guide and adjustable presser roller; J

larger scale, on the Figure 9 is a plan view of the structure shown in Figure 8; E

Figure 10 is a front elevational detail, on a larger scale, of the mechanism at the left-hand end of Figure 1;

Figure 11 is a section on the line iI-ll of Figure 12, showing the position of certain'parts when the gripper that engages the leading end of the rubberized tape is released;

Figure 12 is a section on the line |2 l2; of Figure 10, showing mechanism located at the front of the'wind'er housing;

Figure 13 is a section on the line i3-l3 of Figure i2; 1 L Figure 14 is a section on the line M-M of Figure 12; I Figure 15 is a section on the line ii-l5 of Figure 12 and Figure 16;

Figure 16-is a section on the line iii-i6 of Fi ure l5; v v

Figure 17 is a section, on a larger scale, on the line "-41 of Figure 15;

Figure 18 is a-section on the line |8 i8 of Figure 17;

Figure 19 isla fragmentary rear elevation of the winding unit showing a crank that drives the bead core form, said crank being ad usted for the production of head cores consisting of8 convolutions of wire tape; I Figure 20 is a view similar to Figure 19 'showmg the crank adjusted for'the production of 3- ply bead cores; V Figure 21is a section on the line 2l--2i of Figure20i s I Figure 22 is an elevation of a bare bead-winding form showing how it is adjusted to produce bead cores of small differences in diameter;

Figure 23 is a section on the line 23-23 of Figure;l2, the parts being shown in the relativepositions they occupy in the normal operation of the apparatus;

Figure 24 is a view siniiiar to Figure 23 Show ing the position of'the parts when theapparatus -is "out of time, that is, when the drive of the bead form is not in synchronism with mechanism for feeding the leading end of the tape'to the form; and

Figure 25 is an enlarged detail view of a small F portion 'of the mechanism shown in Figures.

and 24. v I j j l I General description -The winding apparatus of'thisinvention com I prises a rotatable, generally circular bead form a the wire tape, and-saidclamp is operated to re-' 'lease' its grip, after the bead core is wound. Means also is provitled for ejecting the flnished 1 ad core from th'e'peripheryof the form progressively in such. a manner that it falls therefrom in a determinate angular position so asbetter to be received, by apparatus for performing subsequent operations thereon. Themech- 2 anisms' mentioned operate; automatically in determinate sequence to produce the'result desired; Shouldthe proper relative positions of theform and other mechanisms be altered, for a number of reasons subsequently to be explained,

: the'machine will stop running and it cannot a ain be'started until the mechanisms have been adjusted to 7 their T proper relative positions.

'A'series of forms of 'diii'erent diameters is provided for buildingbea'dcores characterized by major diflerences in diameter, but each form is adjustable.circumferentially to provide for the manufacture of beadcores having but minor differences in diameter.

Form-rotating apparatus The winding apparatus comprises, a suitable 7 housing It near thebottom of whichis journale'd a main ,drive'shai'ttl that'is driven, by

40 belt] 32 through a suitable variable speed drive device 63 with a constantly. running I electrical motor, the latter 'being'pro'vided with a magneticbrake I, Figure 1. The drive.

shaft I carries apinion'it'that'is meshed witha gear 61 thatis mounted upon an intermediate drive'shaft 68 also iournaled in housing OI, parand to shaft I. Thei'ntermediate shaft Q. car- 'ries a pinion ss thatis ,rneshedwith a gear ll flxed on a counter-shaft Ii, thelatter also-carryi so ing a pinion" that'is meshed with a gear I:

- having, driving-connection with the rear section, 'll" of a two-part cam and crank shaft conn'stor front and rear"sections w, "Prespctively. I The .camandcrank shaft and .countershaft .are'disposedin thesame vertical plane,

'parallelto shafts i l-and it. The gearingde-j;

scribed is such (as to reduce the motor speedso that the cam and crankshaft rotate at amaximumof 12R.P.M. I,

The two sections of the;c am and crank/shaft are adjustable angularlyfrelatlvely of each other ,for a purpose subsequently to be'explained, and to this end a coupling member 16 is keyed to the inner end of shaft section 14'', and a cou- .ssplingmember I! is keyed-to the adjacent end a of shaft section 149. Said "coupling membersare to each ,other by bolts It, I. that extend through respective arcuate slots Il, Fig v 15, in a circumferential flange on member .70 "and are threaded into a similar flange on The said flange on member I1 is.

v member It. a a

. formed with a short segment ofworm gear teeth '80, which teeth are meshed with a worm 0| journaled in suitable bracket it formed on the i a I" flange cr iemse n. The worm si has a. pro-:

aoeasso iecting squared end .that maybe emcee a suitable socket wrench, the arrangement being such that the coupling members II, II and their respectiveshaftsections may be angulariy adiusted, upon occasion, by the turning of worm ll when'bolts' It are loosened. Such adjustment requires to be made only when the apparatus is .changedto wind beadeores requiring a. diifer ent number of -convofution's 'of the wire tape,

and suitable 'indicia may be stamped upon the perimeter ofthe coupling flanges, as shown in .tive positioning of the coupling members for winding bead cores of any .tions from two to'e'ight. I The countershaft ll extendsthrou'gh and be-,

Figures 12 and 16, to indicate the proper relanumber ,ofconvolut yond the rear wall'of housing II, the projecting quadrant 86 is moved angularly or oscillated I about countershaft H as a pivot'by means ofa most clearly shown in Figure 21, the slide-block with and projectsrearwardly from a slide ii that .is carried by a crank arm 02, the latter being crank arm connected to the camand crank shaft section 14'', and to this end the quadrant is' formedflrith a slot "that is radially disposed with relation to countershaft ll, said slot constituting aslideway for a slide-block 8!. Asia 1 N is iournaled upon a spindle" that is integral therear end portion of cam and crank shaft sec- T tion' ll to whichit is keyed, said hub portion 02 having an extension uponwhich gear I! is nally of the crank arm OI to vary the efl'ective length of the latter, by means of ascrew II that is iournaled in the said crank arm and is thread ed through an ear ll formed on the slide. The

mounted. The slide ll is adjustable longitudi-- screw "is manually rotatable by means of a gear is meshed withwa spiral gear It that is keyed to. a short shaft II that is, iournaled in hub portion 02! of crank armjl, at right anspiral gear" that is mounted thereon, which gles to'the direction ofmovement of slide lit-f Shaft llihas a squared, exposed end portion engageable by a socket wrench for manually tating said shaft to move slide li along crank armlt, radially'of shaft section 14'. The arrangement is such that varying the effestive length of crank arm varies the extent of the are through which quadrant-ll oscillates during eachv revolution of the cam and shaft. This variability of movement of the quad -rant may be appreciated by comparing the positions of the-quadrant as shown in Figures 19 and 20, the quadrant in each'case being shown at one v extremity of itsrange of movement. The extent of angular movement of the quadrant controls the number of revolutions of the bead core form .duringthe building of cores, as presently,

. will be explained, whereby cores of various plies areproduced. To facilitate accurate adjustment of slide l l relatively of crankarm I. the latter is formed with'an extension on the oppositeside the apertures of one series being in'staggered relation to those of the other series. The apertures l'lare positioned at diflerent fronethsaaxisofthecrankarmand'maybeprovidedwlth suitable numerical'indicia, as shown in liguresi leand 20, to indicate various numbersof bead ly held against movement until time for it againcore plies. Slide 9| has an extension 9I -overlying crank arm extension 92 and formed with a pair of apertures 98 adapted alternatively to register with the apertures 91 of each series in the crank arm extension. When one of apertures '98 I .15 with a pinion IOI on the projecting rear end por-- tion of a shaft I02 that is journaled in the front and rear walls of housing 60, above and parallel to shafts I4 .14 and II. .Interiorly of the said housing shaft 102 has mounted thereon a large 20 gear I03 that is meshed with a pinion I04 and.

that :is associated with a roller ratchet or clutch, generally: designated I05, shown most clearly in Figures 17 and 18. The roller ratchet I05 is keyed upon a shaft I06 that is .journaled in the 25 front and rear walls of housing 60, the arrangement being such that shaft I06 is driven by pinion I04 when the latter rotates in one. direction, but is stationary when said pinion rotates in the opposite direction. In order to prevent overrun-or coasting of shaft I06, upon extraordinary occasions, such as when tension on the rubberized tape from which a bead core is being wound is accidently released, a brake band I08 is trained I about the perimeter of roller ratchet I05, one end of said brake band being secured to a stud I09 projecting from the rear wall of housing 60, and the,other 'end of the brake band being connected to a spring-boot IIO slidably mounted in a stud III projecting from the said housing wall, the arrangement being such as to kep the brake band taut at all times. n In order that the shaft I06 will be held fixedly in determinate angular position while stationary, a collar I90 formed with a projecting dog I90 Figures 12 and 14, is mounted upon' said shaft. Said dog is engageablewith a latch consisting of a member I9I shaped as a bell-crankand pivotally mounted on a stub-shaft I92 projecting from the wall of housing 60. One arm -of latch 50 member I9I. is formed in its free end with a notch I93 adapted toengage dog I90 theother arm ofthe latch member extending below shaft,

I4 and engaginga cam I94 on said shaft. A

tension spring I95 is connected to the notched arm of member I9I and to a fixed point on housing 60 -in such a manner as normally tourge the other arm of said member against said cam.

The latter is so shaped'as' to hold the notched end of the latch member out of the orbit of 'dog I90 60 during intervals that the shaft I06 is being. driven, and to permit said notched end to move into the orbit of said dog to engage the same as the driving of shaft I06 ceases whereby the latter is brought to rest at a determined angular position, coasting is prevented, and the shaft secureto be driven, at which time the cam withdraws the latch from the dog.

The front end-portion of shaft I06projects from the front of housing 60, and'carries thereon the form. generally designated F, upon the per- ,imeter'of which the tire bead cores are woundv From the foregoing description of the form'rotatingapparatus it will be understopgthat the form always rotates in one direction,.that isicountery 3 clockwise as viewed in Figures 1, 4, and 22.

Referring back to Figures 19 and 20, theform F is rotated while the crank arm'. 92 is moving from the positions shown, clockwise to complemental positions on the opposite side of crank shaft 14 and is stationary whilethe crank is traversing the remainder of the distance back to point of starting' Thus although each revolution of the crank arm 92 at any setting effects operative cycles of the form F comprising a rotating phase and a stationary phase, which cycles are of equal length, the rotative phase is of longer duration and the stationary phase shorter for bead cores of the larger number'of plies. Because ofthe relative positions assumed bythe crank arm 92 and quadrant 86 during a complete revolution of the crank arm, it will be seen that form F both' starts and stops at relatively slow speed as compared to its intermediate speed, with the result that jolts and jars due to inertia of the form arelargely avoided and maintenance cost reduced. It will also be seen that shaft I06 can be caused to make different numbers of revolutions for each revolution of the cam and crank shaft according to the particular adjustment of the crank-arm-sli de 9i. i

The form Ashereinbefore stated, the apparatus employs:

forms of various sizes for producing bead cores having major differences in diameter, each form being adjustable in circumference so the cores having but minor differences in diameter may be made on the same form. Referring now to Figure 22, the form F comprises a sectional, cir cular disc or plate comprising a major section I I3 and a pair of identical minor, chordal sections 9 I139. sections IIEI are adjacent each other, and adjacent their remote corners they are hingediy At one of their corners the'chordal connected to major section H3 by respective hinge pins I I4. A plate I I5 is secured to the rear face of major form-section I13, which plate projects laterally beyondv said section and underlies the adjacent corners of the respective chordal sections H3, being formed in its projecting portions with-respective arcuate slots H6, H6 that are concentric with'respective hinge pins H4. Formed in the adjacent corners of said chordal sections are bolt holes (not shown) whichregister with respective slots H6 and receive bolts III that extend through said slots. Removably' mounted on the outer or front facetof the form-is a gauge plate IIB provided with suitable bolt holes (not shown) for engaging bolts I11,

the medial portion of said gauge plate having its rear face formed with'a transverse slot II9 engageable with studs I20, I 20 projecting from major section II3 for accurately centering the gauge plate. The gauge plate II8 determines the angular position of chordai sections II3 with dioia maybe stamped on the gauge plates to render proper selection easy. I

'The major section II3fof the form F is 'forined with an axial aperture I22 and suitable bolt holes surrounding the same by means of which the form is received upon a hub I23 and secured thereto by bolts" I24, I24. The hub I23 is keyed to the outer end portion of shaft I, and various 7 forms of different inaior diameters are easily' and quickly mounted thereon and removed therefrom.

lla'ior form-section II2 hasformedin its per Imeter a short, non-radial slot I2I which, in the;

idle or stationary position of-the form, is disposed adjacent the top thereof, to the right. of as ahownin the drawingsjsaid slot being ml tioned to receive the leading end ofa con-- 5 ing portion or law I21, Figures, that extends into slot I28 and is adapted to engage and grip the leading end of tape m so that the tape will be drawn onto the perimeter of the form when .the latter rotates. The'gripper I21 is pivotally go mounted at I20 on the form', and is formed with an oppositely-extending lever arm I29 that is pivotally connected to one endof a link I30, the other'end of the latter being pivotally connected I toa pin .ISI that extends from'the rear of the 26 form through a slot I22 therein. Thepin I3I is carried inthe free ends 'ofa pair of arms I23 that are pivotallymounted at I. upon a brackt-v "imeter, of the bead core on the form F. During et-like formation I22" projecting radially from hub I23. The rear end portion of pin III pro- 30 iects beyond arms I and is provided thereat with a cam roller I35 that rides upon the per.-

imeterof a cam structure. that is journaled upon shaft m justibehind hub m. Asisbest shown in Figures- 10, ll and 13, the cam I is 85 formed with a single depressionflla that is abrupt on one side and sloped on its other side,

jaw II'I grips tape n. Cam m rotates with form 1" during the winding of a bead core.

- During the intervalsthat the form is station-- 45 ary, the cam I" is movedrelatively of the form.

counter-clockwise'as' viewed in Figures 10, 11

and, to'operate the gripper I2l torelease the; end of the bead tape,asuch movement of the cam being possible by reason of its being 60 urnaledon'shaft I. For somoving cam I20,

cams'tructure is formed with ,a radial arm 1). having its free end provided with a rear-r yardly extending stud Ill, that projects-intothe path'of-the hooked upper end of a vertically movi 68 able gripper-opening member "Ill. The hooked end of memberill comprises a horizontal slot I, into which the stud I moves when engaged by the overhanginglip ofsaid slot, in the downward movement of member-I. The extent of ,60 said downward movementof memberilll is suffiiiient to' turn cam structure Iii-'angularly so that the elevated portion'of the cam moves under cam roller I25 as shown in Figure 11, and thus moves linkus longitudinally, against" the tenor sion of spring m, to open law 120- and release the leadingend of tape I2Q.- I

' At its lower end member-III isspivotally connected-to one arm of a bell-crank Ill'that is pivotally mounted at I upon: thefront wall of 70 housing ll, the other arm of said bell-crank hav- 8 its free endprovided with a cam roller I 'ethat'rides upon the perimeter of a'cai'n I" that -Isemount'ed upon the'front end of cam and crank shaft "'II A tension'spri'ng Ill is connected to one arm of and to, a

,copending application for Letters Patent herefixed point on the housing for urging cam roller 8 against cam I 41. A tension spring I is connected to'the other bell-crank arm and to 1 member I in such a manner as tourge the hooked end of member I toward the rightas viewed in the drawings; Mounted in the upper end of member III is a rearwardly projecting, headed stud I50 that engages a vertical guide plate Iii on the side of housing 60, the arrange-' ment being suchas to retain the slotted endof m member Ill in proper .positionlaterally while permitting it to moveup and down. The major portion of cam Ill consists of a low portion upon 5 1 which the cam roller I48 rides during the intervals that the form F is rotating,- as shown, in Fig- -ures 1, '10, and 13. Said cam includesan ele-w vat ed portion I4I of considerable, extent that engages cam roller I46 during the intervals that the form is stationary, to lower hook member Ill and thus to turn cam I36 angularly as shown in -Figure 11, to move gripper I'2'I from the position shown in full lines in Figure 10 to the position shown in broken lines therein to release tape I28; The gripper I2'I is so constructed and arranged inslot I that when it releases the end 25 "of tape I28 the latter is unobstructed and thus is free to spring outwardly against the inner per-' the interval that the gripper is raised, the finished bead core is ejected from the form, and the lead- 30 oing end of tape I26 again inserted, in slot I25, the cam roller I46 passing ofl of cam elevation Il'l' andthe gripper again engaging the tape before rotation of the form is resumed.

- An electric switch is: is mounted upon the I front of housing 60 withitsoperatidg lever pro-1 Jecting into the orbit of cam elevation i lll so as to be periodically operated thereby during-'intervals that the form is rotating. switch I52 is in an electrical circuit (not shown) that operates a wrapping appa atus when a bead-core is properly positioned in the latter, said wrapping apparatus constituting the subject matter of my inbefore mentioned. 7 i The work-erecti g meant Completely wound "bead cores, such as. that I shown at I, Figure3, are ejected from the form 1' during the intervals that the'form is stationary, 5o

after the tape I26 is severed from the wound core and after gripper I21 has been released as described. For ejecting the bead cores I55, a

circumferential series of ejector'fingers I, III

=aremounted at spaced-apart points upon the rear 55 of each finger will move across the periphery of the form, in an axialdirection, and push thebead core I I5 therefrom. A tension spring I is cone I nected to each finger I" and respective-v hinge block I I1 'Insucha manner as normally to urge" the flngento retracted noperative position as shown in full'lines in Figures 3 and 12.

- For moving the ejector fingers forwardly, as 7o shown in broken lines in Figure 3,to eject ahead core-fromlhe form F,;th ere is-provided -an elector frame or yoke III, best shown in Figure 13, that has the general shapeof an inverted, u a

saidfraiue being' 'mountediupomthe front of 1s 'a,osa,sso I I housing so behind formr', its mime medial.

. portion being disposed behind'fingers I56 on the upper part of said form. Laterally extending plates I82, I62 aresecured to the inner margins 5 of the respective leg portions of the ejector frame,

behind fingers I56 on the lower portion .of the form. The ejector frame is arranged for pivotal movement toward and from the form F, the respective le portions of the frame being loosely retained in U-shaped loops I63 secured to the respectiveends of a bracket I64 on thefront wall of housing 66, said loops constituting the axis of pivotal movement of said ejector frame. For supporting and pivotally moving the ejector frame I6I, the latter is pivotally connected at its uppermost, arcuate portion, to the forward end of a push-bar I66. The latter'is mounted for longitudinal movement in four grooved sheaves or guide rollers I61, I61 arranged in pairs adjacent the front and rear ends of the push-banin engagement with the upper and lower margins thereof. Guide rollers I81are journaled on suitable spindles I68 that are carried bya frame L68 that is vertically slidable between a pair of lat- 3 eral brackets I16, I16 mounted on top of housing 66. A cap-plate I1I extends across the tops of brackets I16, and extending through said cap plate is a threaded bolt I12 that is connected at its lower end by pin I13, Figure 12, to slidable frame I69. Lock nuts I14 are threaded onto bolt I12 above cap plate I1l, the arrangement being such that by turning said nuts the bolt "2 and 7 frame I69 may be raised and lowered, upon occasion, such as when a form F of different circumference is 'substitutedfor the form previously in use. A tension spring I15, Figure 12, connected to push-bar I66 and to a fixed point on frame I69 normally urges said push-bar rearwardly to a determinate inoperative position.

'40 For urging the push-bar I66] forwardly,

against the tension of spring I15, in timed relation to the operative cycles of the mechanism previously described, a spindle I11 is mounted transversely in the rear end-of push-bar I66, 5 the laterally projecting end portions of said spin-' dle having grooved sheaves I18,' I18, Figures 12 and 14, journaled thereon, said sheaves I18 being disposed in respective bights in chains I19, I19 that have their upper ends connected to cap 50 plate "I, and are trained about grooved sheaves I66, I86 journaled on the end portions of the rear spindles 168, on the, outer sides of frame.

I69. At their lower ends the chains I19 are connected to a yoke 182 that is connected to the 55 upper end of a link I88, the lower end of the latter having pivotal connection at I84 withthe g free endof-a lever I85 that extendstransversely' of the housing 66, between shafts1I-and 14-, and is pivotally mounted at its other end on a 0 bracket I86 secured to the housing wall. Near.

. its middle thelever I85 carries a cam-roller I81 in suitable ears formed on its upper margin, said cam-roller riding on the perimeter of a cam I88, Figure 14, mounted on cam and crank shaft sec- 65 tion 14. Cam I88 comprisesa single elevation I68 adapted to depress lever I85 and thus to cause chains I19 to project push-bar I 66 forwardly, against the tension of spring ,I15,.whereby frame I6I actuates ejector fingers I56. Spring 115 also serves to keep cam roller I81 in engage-' "-"j {ment with cam I88. The latter is so positioned "on shaft'section 14' withrelation to the angu-- lar position of cam I41 thereon that the ejector fingers operate to eject the wound core I55 after 75 gripper "I21 has released the tape-end thereof.

m r ue F. This I makes it possible to position the frame 26I in 60 tions thereof, with the result that-the ejector fingers I56 at the top of the form F are moved faster and farther than the fingers at lower positions, and move across the periphery of the form prior to the lower fingers, whereby thecore I55 is first ejected from the top of the form. This 10' causes the ejected core to fall while in a determinate angular position, which facilitates its reception in other apparatus for performing other operations thereon. Furthermore, the fingers I56 are somewhat arcuately shaped so that the frame 15 I6I engages each finger progressively from its outermost end, inwardly toward its pivoted end, with the result that the initial operative, movement of each finger, wherein it engages the bead 1 core and moves it off the form, is relatively slow, 20

and its subsequent movement, wherein it pushes thebead core farther away fromthe form, is relatively rapid. This feature of the invention permits ejection; of the work'w'ithout distorting 'or injuring it. 25

Since the form-shaft latching mechanism, the gripper operating mechanis'm,.'and the work-' ejecting mechanism operate during the interval' that the form is stationary, and sincethe stationary phase of form operation varies for work D The tape-feeding means I Mountedupon the front of the housing 66,

at the right-hand end thereof, as shown in Fig-,

'ures l and 4, is a bracket I98 that is secured to the housing by means. of bolts that extend through horizontal slots I99, I99 in said bracket, whereby the latter has limited adjustability toward and away from the form F. The bracket I98 has-a portion that extends" obliquely upwardly, away from form F, and comprises a dovetail slideway. 266 in whichv is slidably mounted one margin. of a generally triangular frame 26I that extends toward form F. A screw. 262 is journaled in a plate 263 at the top of bracket I98 and is threaded through. a nut 264 that is secured to frame 26I, theend of screw 262 above plate 263 being provided with a hand crank 265 by which said screw may be rotated to raise or lower frame 26I- and'concu'rrently to move it toward or away feature of the invention proper relation to forms F of different diameters. Numerical'indicia may be stamped on the slideway 266 asshown, and the frame 26I may have. anindicator 266' associatedwith said indicia to indicate the proper setting of the frame for 05 forms F of various diameters. For rigidly, supporting the cornerof frame 26I nearest form F, a bracket 261- is mounted on housing 66 behind said form, said bracket extending upwardly from. the housing behind frame 26I, and being formed 70 with an oblique slot 268 thatis parallel to slideway 266 of bracket I98. frame 26I is formed with a horizontal slot 269,

-.'and said frame and bracket 261 are securedjto The adjacent cornerof slots m, m, the ,nut on sald bolt being provided with a handle: 2 by which the nut is manually turned for quick adjustment of the frame.

I Formed. on the frame 2i" and extending forwardlytherefrom is a front bracket 2" and a rear bracket 2|! is attached,to the frame, said by a cap plate 2I'I as most. clearly shown in 15, Figure 6. A pin 2l8 has its ends mounted in a respective slidesections *2II and transverses the "space betweenthem', and a feed pawl 2I8 is pivotally mounted in' its medial region on said pin. A rack 220 with teeth on its bottom face is therebetween, and the pawl 2I9 has its lower end engaged in a'sultable notch formed in the upper face of said slide, the-arrangement being such relatively of the slide. The wire tape l2i extends through slide 2I'I in the space above DB-Wl 2| 9 and belowcap'plate 2| l When the rack 220 initially is advanced to the left as viewed in Figures '1; and 4, pawl'2i9 is so rocked that its upper end engages tape I26 andbinds it against pcap plate 2", with the result that further'relative movement of rack and slide 2 I 'Iis prevented, and the-latter then moves with said rack, whereby thetape is advanced. t t v i In the-retractivemovement of rack 220, the 'lattermoves relatively of slide 2 I1 and rocks pawl 2|! on'its pivot so-that it releases its engagement with the tape. A pin 22I, Figure 4; is mounted 40in slide 211 in'such position as to limit movement of the pawl 2I9 away from said tape. and it also prevents further relative movement of,

slide and rackdurlng'retractionof the latter so; that the slide and rack areretracted as. afunit, bothmoving relatively of the tape I 26 after the tape is released by the pawl. In retracted position, racl: 220 and slide 2l'l. abut an adjustable positive stop consisting, ofa headed bolt 222' threaded into rear bracket 2II. ,The position of stop\222 determines the distance the tape' I26 is fed forward each time the sllde'2l] isadvanced, and hence determines the distance that the lead-'- 1 in: code; said tap'e wili'extend into slot' m or form 1''; ll.

- -l 'or' advancing therack"222 8.! described, a

m h s,

, gear pinion "22l is provided; which pinipn -with rack 220 and with astationary-rack 222 secured to frame 2". Thepinion-22l-is journaled I in one end of a 'puslmod 221; the otherend of the .fioilatter being pivotally connectedto the free end of a lever arm 222 that is pivotally mounted on a spindle 222 projecting forwardly from frame 2". ,1 The lever arm22l carries a camrollerdll that, H

. is positioned atone side of -saidlever arm in M theorbit ofa' camf22i that is mounted P no m; lever arm. 222is-yieldingly the tape, a, blade'2l2thatls normally disposed 7, held in the normal. position shown'in Figures 1" and 74 by mmns .of a pairio'f tension springs 222,

' 222 that are connec'ted to the lever armand to a stud 224 ,prolecting from' frame 2". The

. normal position ofthe lever'arm .22ljas is determined by the position of adjustable stop 222.

The "arrangement; is that the 411 h 2i! executes one cycle of operation, that int-moves to rune left to-advance the work and then'returns 'ings in frame 2M and in anoutboard bearing slidably mounted'for longitudinal movement upon slide sectlons2ll, in the lower part oi the space that the pawl is rockable by movement of the rack ing means will operate in proper timed relation 3 to the phases :of operationof the form' 1". Morethe movement imparted to lever arm 222 by the cam 22l with the result that! it is possible to 5 accomplish the end desired with a relatively small As is most'clearly shown in Figures 6 and 'I, the cam shaft 222 is lournaled \in suitablebear l0 bracket 222 mounted on the rear side thereof. The cam shaft-222 is driven from the cam and crank shaft 14- and at the same rotative speed as the latter. To. this end the said shafts are connectedb'y an elbow drive mechanism comprising an upper section f 222' swiveled on the projecting rear end portion of cam shaft 222, and

I a lower section 222 swiveled on cam and crank shaft I4, the said elbow drive sections being disposed at an angle to each other and piyotally connected to each other at thelradlacent ends by means ofa hinge pin 22! as is most-clearly shown -in Figure :14; Journaled on hinge 2221s a dual sprocket comprising sprockets 2", 242, ll'lgure 12, of which sprocket 2 is connectedby sprocket chain! with a sprocket! on cam shaft 14', and sprocket 242 "is connected by sprocket chain 245 with a sprocket 2" mounted on cam shaft 222. The arrangement is such that cam shaft 222 is driven in all positions of adjustment of frame v2Iii, and the lattermay be adjusted without disturbing'the drive of the cam shaft. Since the cam shaft is driven'at the same, speed as camand crank shaft W, the strip feedover, relative adjustment of cam and crank shaft sections 14, 14 to compensate for windingbead cores of diiferentnumbers of plies will similarly adjust the relative-angular position of crank shaft 222 so that the mechanisms operated thereby will always operate in proper timedrelation to the'said'winding form; 1 1

v The tope-mertnmmeanr I After the tape I22 has been engaged at its lead? ing end to the form 1", and the latter ha made the proper number of revolutions .to wind a plurality of convolutionsof the'tape thereon. the form stops rotating and immediately the .tape is severed. The severing of the tape is efl'ected'at I a' pointwhieh provides a substantial overlap of the ends of' the tape 'inthe wound bead core I22. usually about ilveinohesrbut this distsnce msy with dis 21s.?!

in an elevated P02121622. ll'ld at the meme is caused toldescend'in anarcuate :coune 'snd. 

